So, I don’t normally read much George Will. He is too conservative for me. But I listen to him because he’s an interesting thinker with integrity. He’s never just been one of those talking heads that spouts talking points on the Conservative issues of the day.
The President’s Council of Advisors on Science and Technology (PCAST) published their Engaged to Excel report in February 2012 calling for America to produce a million additional college graduates in STEM fields in the next decade. Unlike the National Research Council’s Rising Above the Gathering Storm report of 2007, which made more general calls1, the PCAST report is focused and provides strategies to increase retention to STEM degrees from 40% to 50%, a change that would go most of the way to realizing the PCAST goals.
These recommendations focus on improving STEM education both at the transition from high school to college and during the first two years of college. The report acknowledges that these recommendations impact high schools and all institutions of higher education, including community colleges.
Today, 40% of all college students are in the community college system. In Missouri, according to the Missouri Department of Higher Education’s Imperatives for Change baseline report, a Missouri student who is interested in STEM and who starts college at a two-year school has only an 8% chance of earning a baccalaureate STEM degree.
A similar student who starts college at a four-year school has a 40% chance of earning a baccalaureate STEM degree. Given the vast number of students in Missouri community colleges, a modest increase in STEM success of STEM transfers (e.g., to 20%) would yield a huge dividend to Missouri. A similar story can probably be told in other states.
There are two primary barriers that higher education erects to impede America’s ability to produce STEM professionals. The first is mathematics as a weed-out experience. The second is the Associate of Arts degree.
Historically, typical mathematics course sequences were designed by mathematics departments to support the needs of mathematics majors, physics majors, and engineering majors. But chemists also want their students to acquire mathematical maturity, so they require their students to tread the mathematics pathway through about Calculus III. Biologists tend to require their students to take precalculus, though many biology faculty believe medical schools require applicants to have Calculus I. These mathematics requirements are good for the sciences, but when you consider the numbers of students pursuing each of the science degrees, the mathematics courses are designed for the smallest disciplines. Little from chemistry and very little from biology informs mathematics training. In the past, those students who have made it through mathematics courses have been adequate performers in their degree programs. But is the mathematics curriculum as it is presently designed fit for producing 21st century scientists and mathematicians?
The second barrier that higher education erects to impede students progress toward a STEM degree occurs in the community college system. In Missouri, the Associate of Arts (AA) degree is the primary transfer degree. So professional academic advisors at Missouri community colleges advise their students to pursue that degree. A Missouri law requires that state public baccalaureate institutions transfer an AA degree in as satisfying all core liberal arts graduation requirements. This is a great deal for students!
Unfortunately, the AA degree’s bias toward arts and humanities courses makes it poor preparation for a baccalaureate STEM degree. Transfer students interested in STEM who have earned an AA degree can expect transfer shock in the form of (1) placement in STEM courses with freshman, and (2) three or four additional years of coursework to earn a STEM degree. Compare this with the humanities and business, where transfer student who have an AA can earn a degree in two to three years! It’s no wonder that success rates in STEM among community college students are so low.
This isn’t the fault of community colleges. They want their students to transfer and be successful in baccalaureate programs. Success in STEM baccalaureate programs is an added bonus! But they are saddled with obligations to too many outcomes: transfer success, re-training success, certification success, etc. This is why realization of the PCAST goals requires cooperation between so many stakeholders.
To reduce attrition in STEM degree programs within four-year programs and within the two-to-four year transition, institutions in geographic proximity should coordinate their efforts. Two-year schools should align their STEM course outcomes to meet the needs of targeted transfer institutions, and those targeted institutions must be aware of the STEM capacities of their two-year school partners. They should use that knowledge to support STEM transfer students through the transition to their four-year program and through to graduation with a STEM baccalaureate degree.
The good news is that many people are developing ways to address the challenge of retaining students to STEM through their first two years (a.k.a., the barrier years) and through the transition from two-year school to four-year school. We need to support those efforts and increase their visibility to the rest of the higher education community.
If we do, everyone benefits. If we don’t, everyone loses.
President Obama says that he is putting Colleges and Universities on notice. If they don’t stop tuition from increasing, they will watch their public funding decrease. Funny. I think most pubic colleges and Universities are increasing their tuition BECAUSE public funding is being cut by state lawmakers. Maybe I’m missing some Federal system of higher education?!
It looks like the America Invents Act has been passed by both the House and Senate, and it is on its way to the President’s desk. And it looks like the President is going to sign the bill. What is this going to mean?
I do not know much about intellectual property policy, but everybody knows that American patent system is seriously broken. From the backlog of patents that have been filed and are waiting to be reviewed, to the absurd patents that are being granted by the US Patent and Trademark Office, to patent trolling that is now a business (cf. the business practices of Intellectual Ventures), and the technology patent wars that corporations are waging. It’s all craziness.
And now it appears there is going to be a revision to the way patents are granted that puts more power into the hands of the large corporations. Where ‘invention’ had been the act that merited a patent, now it seems that filing paperwork on an idea first will now take precedence. How is this an improvement in the system? How is this going to help fix the problems in the US patent system?
Really, I want to know. Please share what you know. Share links. Share information. Please.
Update: The NYTimes.com has an article on this: Fighting Backlog in Patents, Senate Approves Overhaul
<p><span style="font-size: small;">After more thought, it seems to me that this article,</span><span style="font-size: small;"> '<a href="http://www.nytimes.com/2011/08/19/business/a-summer-camp-to-draw-girls-into-manufacturing-careers.html" target="_blank">At This Girls' Camp, Crafts Take a Drill Press</a>', </span><span style="font-size: small;">describes programs that superficially prepare young women for careers in manufacturing. But it's more about preparing girls to be makers, and opening doors to future careers that would otherwise go unnoticed.<!--more--></span></p>
Across the country, a handful of companies, nonprofit groups, public educational agencies and even science museums are trying to make manufacturing seem, well, fun. Focusing mainly on children aged 10 to 17, organizations including the Da Vinci Science Center in Allentown, Pa.; and Stihl, a maker of chain saws and other outdoor power equipment in Virginia Beach, Va., run camps that let students operate basic machinery, meet workers and make things.
One thing I take away from this is the depth of experience there is out there in running these problems, as well as the enthusiasm for supporting (with money) the programs. But down there at the foundations of the effort are passion (of the team of individuals who organize the programs) and a respect for STEM learning.
“Not letting your children learn the hands-on component of the theory of science is killing us as a nation,” Ms. Sharris said. “You have to stop giving kids books and start giving them tools.”
I’m not suggesting that STEM should get higher billing in these programs. I suggest quite the opposite, that STEM programs should give these types of programs greater respect and higher billing. Hell, we should start stealing some of their best bractices to appropriate in the ways we teach young people and college students.
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My three-day science, math, and writing camp experience for thirteen and fourteen year-olds is behind me. Reimbursement requests, invoicing, and report-writing still hang out on my to do list. But this afternoon, I decided to use the last of my helium to send another trio of balloons into the sky over my home. With my daughters (pictured above) assisting me.
It’s hard to say what they got out of it. We talked a bit about helium and buoyancy, but mostly they helped with some of the mechanical things like winding the balloons up to and down from the sky with my drill rig. Doing little things like this, I hope, will give them the confidence to use their hands to make, break, and build things. And to learn from that process. Just I like I’ve learned so much from this process of preparing this campus experience for those 28 Kansas City kids who hope to go to college in five years.
Sad news. Today we were demo’ing our helium balloon satellite imaging system with some new ‘unbreakable’ string with the GoPro HERO camera mounted on the gondola. It was a slightly breeze day, and the winds pushed the balloons firmly away from us. As we let the strings wind out, the balloons rose and before we knew what it meant, they were over a huge oak tree. Thinking that slack would help the balloon rise, we let out string, The balloon descended as the winds pushed it. Then the string went slack. And that balloon rig floated away with our camera taking one picture per second.
So, if you find our camera, please let us know. We’ll pay to have it shipped back from us.
Please let your friends in north Missouri, South Iowa, Southwest and Central Illinois know about our plight. If you or anyone finds our rig, please let us know at email@example.com or firstname.lastname@example.org.